Bio Chemistry Collection (page 6)

Verapamil drug molecule
Verapamil, molecular model. This is a calcium channel blocker used to treat hypertension (high blood pressure) and angina

Zolpidem sedative drug molecule
Zolpidem, molecular model. This sedative drug is used for the short-term treatment of insomnia. Atoms are represented as spheres and are colour-coded: carbon (grey), hydrogen (white)

Zinc crystal structure, molecular model

Allopurinol gout drug molecule
Allopurinol, molecular model. This drug reduces the level of uric acid in the body. The accumulation of uric acid crystals in the joints is known as gout

Nitroglycerin molecule
Nitroglycerin, molecular model. This chemical is used as a heart drug and an explosive. Atoms are represented as spheres and are colour-coded: carbon (grey), hydrogen (white)

Virus structure, conceptual artwork
Virus structure, conceptual computer artwork

Scopolamine toxin molecule
Scopolamine, molecular model. This alkaloid toxin is fond in plants of the nightshade (Solanaceaea) family. In very small doses it is used to treat motion sickness

Streptonigrin antitumour drug molecule
Streptonigrin, molecular model. This antibiotic also has antitumour action. Atoms are represented as spheres and are colour-coded: carbon (grey), hydrogen (white), nitrogen (blue) and oxygen (red)

Prozac antidepressant molecule
Prozac. Molecular model of the antidepressant fluoxetine, marketed as Prozac. Atoms are represented as spheres and are colour-coded: carbon (grey), hydrogen (white) oxygen (red)

Dyazide diuretic drug molecule
Dyazide, molecular model. This is a diuretic drug used to treat hypertension (high blood pressure) and oedema (water retention)

Mefloquine malaria drug molecule
Mefloquine, molecular model. This drug is used for the prevention and treatment of malaria. Atoms are represented as spheres and are colour-coded: carbon (grey), hydrogen (white)

Metoprolol beta-blocker drug molecule
Metoprolol, molecular model. This beta-blocker drug is used to treat hypertension (high blood pressure) and angina. Atoms are represented as spheres and are colour-coded: carbon (grey)

Terazosin prostate drug molecule
Terazosin, molecular model. This alpha-blocker drug is used to treat benign prostatic hyperplasia (BPH, enlarged prostate) and hypertension (high blood pressure)

RNA polymerase alpha subunit
RNA polymerase. Molecular model of the alpha subunit of RNA polymerase (purple) with a molecule of DNA (deoxyribonucleic acid, pink and green)

Methyltestosterone steroid drug molecule
Methyltestosterone, molecular model. This is an anabolic steroid drug. Atoms are represented as spheres and are colour-coded: carbon (grey), hydrogen (white) and oxygen (red)

Picric acid explosive molecule
Picric acid explosive, molecular model. Atoms are represented as spheres and colour-coded: carbon (grey), hydrogen (white), nitrogen (blue) and oxygen (red)

Seroxat antidepressant drug molecule
Seroxat. Molecular model of the antidepressant drug paroxetine, which is marketed as Seroxat. It is a selective serotonin reuptake inhibitor (SSRI)

Trazadone antidepressant drug molecule
Trazadone, molecular model. This antidepressant drug is a serotonin antagonist and reuptake inhibitor (SARI). Atoms are represented as spheres and are colour-coded: carbon (grey), hydrogen (white)

Modafinil stimulant drug molecule
Modafinil, molecular model. This stimulant drug is used to treat narcolepsy. Atoms are represented as spheres and are colour-coded: carbon (grey), hydrogen (white), oxygen (red)

Valsartan drug molecule
Valsartan, molecular model. This drug is used to treat hypertension (high blood pressure) and congestive heart failure. Atoms are represented as spheres and are colour-coded: carbon (grey)

Enalapril ACE inhibitor molecule
Enalapril, molecular model. This is an ACE inhibitor drug used to treat hypertension (high blood pressure) and chronic heart failure

Leflunomide arthritis drug molecule
Leflunomide, molecular model. This immunosuppressant and anti-inflammatory drug is used to treat rheumatoid and psoriatic arthritis

Propoxyphene drug molecule
Propoxyphene, molecular model. This is an opiod analgesic (painkiller) drug that has been withdrawn from use in many countries

Butalbital barbiturate drug molecule
Butalbital, molecular model. This barbiturate drug is often combined with paracetamol or aspirin for the treatment of pain

Tubocurarine muscle relaxant molecule
Tubocurarine, molecular model. This muscle relaxant drug is obtained from the South American Chondrodendron tomentosum plant

Simvastatin cholesterol drug molecule
Simvastatin, molecular model. This is a cholesterol-lowering drug of the statin class. Atoms are represented as spheres and are colour-coded: carbon (grey), hydrogen (white) and oxygen (red)

Fluconazole anti-fungal drug molecule
Fluconazole anti-fungal drug, molecular model. Atoms are represented as spheres and are colour-coded: carbon (grey), hydrogen (white), nitrogen (dark blue), oxygen (red) and fluorine (light blue)

Krebs cycle enzyme, molecular model

Ferrite molecule
Ferrite, molecular model. Ferrite, or alpha-iron, is iron with a body centred cubic crystal structure

Citalopram antidepressant drug molecule
Citalopram, molecular model. This antidepressant drug is a selective serotonin reuptake inhibitor (SSRI). Atoms are represented as spheres and are colour-coded: carbon (grey), hydrogen (white)

Phosgene chemical weapon molecule
Phosgene chemical weapon, molecular model. Atoms are represented as spheres and are colour-coded: carbon (grey), chlorine (green) and oxygen (red)

Furosemide diuretic drug molecule
Furosemide, molecular model. This is a diuretic drug used to treat congestive heart failure and oedema (water retention). Atoms are represented as spheres and are colour-coded: carbon (grey)

Hydrazine rocket fuel molecule
Hydrazine rocket fuel, molecular model. Atoms are represented as spheres and are colour-coded: nitrogen (blue) and hydrogen (white)

Acetone cyanohydrin molecule
Acetone cyanohydrin, molecular model. Acetone cyanohydrin is used in the production of plastics. Atoms are represented as spheres and are colour-coded: carbon (grey), hydrogen (white)

Atenolol high blood pressure drug

Magnesium crystal, molecular model

Dinitrophenol molecule
Dinitrophenol, molecular model. Dinitrophenol is used in the production of explosives, pesticides and wood preservers. It is also used as a diet aid, as it increases metabolism

Ritalin molecule
Ritalin. Molecular model of the stimulant drug methylphenidate, marketed as Ritalin. Atoms are represented as spheres and are colour-coded: carbon (grey), hydrogen (white), oxygen (red)

Medroxyprogesterone hormone molecule
Medroxyprogesterone, molecular model. This synthetic progesterone (female sex hormone) is used to treat irregular periods and endometriosis

Nitrofen herbicide molecule
Nitrofen herbicide, molecular model. Atoms are represented as spheres and are colour-coded: carbon (grey), hydrogen (white), nitrogen (blue), oxygen (red) and chlorine (green)

Tributyltin biocide molecule
Tributyltin, molecular model. This is the active ingredient in a number of biocides. Atoms are represented as spheres and are colour-coded: carbon (grey), hydrogen (white) and tin (green)

Shiga-like toxin I subunit molecule
Shiga-like toxin. Molecular model of the binding (B) subunit of Shiga-like toxin I. This toxin is produced by Escherichia coli bacteria

Bacteriophage MS2 capsid protein, molecular model

Azulene molecule

Phosphorus crystal structure, molecular model

Cephalexin antibiotic molecule
Cephalexin, molecular model. This antibiotic is sold under the brand name Keflex. Atoms are represented as spheres and are colour-coded: carbon (grey), hydrogen (white), oxygen (red)

Fexofenadine antihistamine molecule
Fexofenadine, molecular model. This is a non-sedating antihistamine drug. Atoms are represented as spheres and are colour-coded: carbon (grey), hydrogen (white), oxygen (red) and nitrogen (blue)

Nano particle, artwork
Nano particles, abstract computer artwork

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Biochemistry is the captivating realm where science and life intertwine, revealing the intricate secrets of our existence. As I gaze at the computer screen displaying a mesmerizing human genetic sequence, I am reminded of the boundless potential encoded within each double-stranded RNA molecule. The elegant dance of DNA transcription unfolds before my eyes, its molecular model illuminating the blueprint of life itself. In another corner, caffeine crystals come to life under a light micrograph, reminding us that even in our daily rituals lies an underlying biochemical symphony. The iconic DNA molecule stands tall as a symbol of discovery and progress, thanks to the pioneering work of Watson and Crick who unraveled its mysteries. Isaac Asimov's brilliance shines through as we acknowledge his contributions not only as a renowned US author but also as a biochemist who bridged literature with scientific exploration. Artistic renditions capture the beauty and complexity of metabolic enzymes and secondary structures of proteins, showcasing nature's ingenuity at every turn. The quest for knowledge extends into brain protein research; unlocking these enigmatic molecules could hold answers to understanding neurological disorders that plague humanity. A stunning computer artwork reveals beta DNA segments intertwined with spheres like celestial bodies orbiting their own gravitational pull - an awe-inspiring representation of interconnectedness on both macroscopic and microscopic scales. Amidst it all lies the nucleotide base matrix - an intricate web connecting all living beings across time and space. Biochemistry beckons us to explore this matrix further; deciphering its language holds profound implications for medicine, agriculture, biotechnology, and beyond. In this captivating world where science meets life's building blocks, biochemistry invites us to unravel nature's deepest secrets while inspiring wonderment at every step along this remarkable journey.